llc_hires/llc_4320/lookat.m

nx=4320;
pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';

%%%%%%%%%%%%%%
% SST of San Pedro basin
ts=279360;
fn=[pn 'Theta.' myint2str(ts,10) '.data'];
f=11;
ix=3800:4100;
iy=3100:3300;
T=quikread_llc(fn,nx,1,'real*4',f);
clf reset
mypcolor(rot90(T(ix,iy),2)')
colormap(cmap)
caxis([13.7 16.8])
thincolorbar
set(gca,'xtick',[],'ytick',[])
print -dpsc LA

%%%%%%%%%%%%
% compare SST off Peru on November 1, 2011
cx=[15 20];
n1=1080;
n2=2160;
n3=4320;
ix1=380:590;
iy1=300:450;
ix2=760:1180;
iy2=600:900;
ix3=1520:2360;
iy3=1200:1800;
dte='1-Nov-2011';
ts1=dte2ts(dte,90,2010,1,1);
ts2=dte2ts(dte,45,2011,1,17);
ts3=dte2ts(dte,25,2011,9,10);
p1='/nobackupp8/dmenemen/llc/llc_1080/MITgcm/run_2011/';
p2='/nobackupp5/dmenemen/llc_2160/MITgcm/run_day49_on/';
p3='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
f1=[p1 'T.' myint2str(ts1,10) '.data'];
f2=[p2 'Theta.' myint2str(ts2,10) '.data'];
f3=[p3 'Theta.' myint2str(ts3,10) '.data'];
f=12;
T1=quikread_llc(f1,n1,1,'real*4',f);
T2=quikread_llc(f2,n2,1,'real*4',f);
T3=quikread_llc(f3,n3,1,'real*4',f);
clf reset
subplot(131)
mypcolor(rot90(T1(ix1,iy1),2)');
caxis(cx)
thincolorbar('horiz')
title('1/12 deg')
subplot(132)
mypcolor(rot90(T2(ix2,iy2),2)');
caxis(cx)
thincolorbar('horiz')
title('1/24 deg')
subplot(133)
mypcolor(rot90(T3(ix3,iy3),2)');
caxis(cx)
thincolorbar('horiz')
title('1/48 deg')

print -dpsc -r600 SST_Peru

%%%%%%%%%%%%
nm='SIarea';
n=1;
clf reset
colormap(cmap)
for ts=10368:144:138384;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 if exist(fn)
  fld=[rot90(quikread_llc(fn,nx,1,'real*4',7),1) quikread_llc(fn,nx,1,'real*4',8)];
  clf
  quikpcolor(rot90(fld(:,1:5000),1)');
  caxis([0.9 1])
  title('llc4320 fractional sea ice concentration')
  thincolorbar
  text(3400,760,ts2dte(ts,25,2011,9,10),'color','w')
  eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
  n=n+1;
 end
end

%%%%%%%%%%%%
nm='SIarea';
n=1;
clf reset
colormap(cmap)
ts=3600;
fn=[pn nm '.' myint2str(ts,10) '.data'];
fld=[rot90(quikread_llc(fn,nx,1,'real*4',7),1) quikread_llc(fn,nx,1,'real*4',8)];
clf
quikpcolor(rot90(fld(:,1:5000),1)')
caxis([0.9 1])
title('llc4320, sea ice concentration (m)')
thincolorbar

%%%%%%%%%%%%
p1='/nobackupp8/dmenemen/llc/llc_1080/MITgcm/run_2011/';
n1=1080;
t1=599040;
f1=[p1 'T.' myint2str(t1,10) '.data'];
fld1=zeros(n1*4,n1);
fld1(1:n1,:)=quikread_llc(f1,n1,1,'real*4',2);
fld1((n1+1):(2*n1),:)=quikread_llc(f1,n1,1,'real*4',5);
fld1((2*n1+1):(3*n1),:)=rot90(quikread_llc(f1,n1,1,'real*4',9),2);
fld1((3*n1+1):(4*n1),:)=rot90(quikread_llc(f1,n1,1,'real*4',12),2);

p2='/nobackupp5/dmenemen/llc_2160/MITgcm/run_day49_73/';
n2=2160;
t2=466080;
f2=[p2 'Theta.' myint2str(t2,10) '.data'];
fld2=zeros(n2*4,n2);
fld2(1:n2,:)=quikread_llc(f2,n2,1,'real*4',2);
fld2((n2+1):(2*n2),:)=quikread_llc(f2,n2,1,'real*4',5);
fld2((2*n2+1):(3*n2),:)=rot90(quikread_llc(f2,n2,1,'real*4',9),2);
fld2((3*n2+1):(4*n2),:)=rot90(quikread_llc(f2,n2,1,'real*4',12),2);

p3='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
n3=4320;
t3=26928;
f3=[p3 'Theta.' myint2str(t3,10) '.data'];
fld3=zeros(n3*4,n3);
fld3(1:n3,:)=quikread_llc(f3,n3,1,'real*4',2);
fld3((n3+1):(2*n3),:)=quikread_llc(f3,n3,1,'real*4',5);
fld3((2*n3+1):(3*n3),:)=rot90(quikread_llc(f3,n3,1,'real*4',9),2);
fld3((3*n3+1):(4*n3),:)=rot90(quikread_llc(f3,n3,1,'real*4',12),2);

cx=[0 30];
clf reset
colormap(cmap)
subplot(311)
mypcolor(fld1');
caxis(cx)
thincolorbar
title('llc_1080 SST, 17 September 2011')
subplot(312)
mypcolor(fld2');
caxis(cx)
thincolorbar
title('llc_2160 SST, 16 September 2011')
subplot(313)
mypcolor(fld3');
caxis(cx)
thincolorbar
title('llc_4320 SST, 17 September 2011')

print -dpsc -r600 Theta_17sep2011

%%%%%%%%%%%%
nx=4320;
p1='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run_day1/';
pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
nm='Theta';
f=2; iy=1300:1900; ix=2600:3400;
clf reset
colormap(cmap)
ts=180;
fn=[p1 nm '.' myint2str(ts,10) '.data'];
fld=quikread_llc(fn,nx,1,'real*4',f);
subplot(211)
mypcolor(fld(ix,iy)');
caxis([10 20])
thincolorbar
ts=14976;
fn=[pn nm '.' myint2str(ts,10) '.data'];
fld=quikread_llc(fn,nx,1,'real*4',f);
subplot(212)
mypcolor(fld(ix,iy)');
caxis([10 20])
thincolorbar

print -dpsc -r600 Theta

%%%%%%%%%%%%
pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
nm='Theta';
nx=4320;
clf reset
colormap(cmap)
ts=136368;
fn=[pn nm '.' myint2str(ts,10) '.data'];
fld=quikread_llc(fn,nx);
fld(find(~fld))=-3;
quikplot_llc(fld)
caxis([-3 31])
axis([0  17281 1600 15121])
title(['llc4320 ' ts2dte(ts,45,2011,1,17) ', Sea Surface Temperature (deg C)'])
thincolorbar
eval(['print -dpsc -r600 Theta4320_' int2str(ts)])

%%%%%%%%%%%%
nm='KPPhbl';
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx);
 clf
 quikplot_llc(log10(fld))
 caxis([0 3])
 axis([0  8641 800 7561])
 title('llc2160, log10(PBL)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm='Eta';
n=1;
clf reset
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx);
 clf
 quikplot_llc(fld)
 caxis([-1 1]*3)
 axis([0  8641 800 7561])
 title('llc2160, sea surface height (m)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17))
 eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm='Theta';
n=1;
clf reset
colormap(cmap)
ts=4464;
fn=[pn nm '.' myint2str(ts,10) '.data'];
fld=quikread_llc(fn,nx);
clf
quikplot_llc(fld)
caxis([-2.5 30.5])
axis([0  17281 1600 15121])
title('llc4320, sea surface temperature (deg C)')
thincolorbar
print -dpsc -r600 Theta4320_4464

%%%%%%%%%%%%
nm='W';
kx=68;
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx,kx);
 clf
 quikplot_llc(fld*1000)
 caxis([-1 1]*8)
 axis([0  8641 800 7561])
 title('llc2160, Wvel at 2 km depth (mm/s)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17),'color','k')
 eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
% W2000 in EqWPac
nm='W';
kx=68;
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx,kx,'real*4',9);
 clf
 quikpcolor(1000*rot90(fld,2)')
 caxis([-1 1]*5)
 title('llc2160, Wvel at 2 km depth (mm/s)')
 thincolorbar
 text(620,540,ts2dte(ts,45,2011,1,17),'color','k')
 eval(['print -dtiff -r135 ' pn 'figs/' nm 'WPac' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm='Salt';
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx);
 clf
 quikplot_llc(fld)
 caxis([28 38])
 axis([0  8641 800 7561])
 title('llc2160, sea surface salinity (g/kg)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm='PhiBot';
fld1=0;
n=1;
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld1=fld1+quikread_llc(fn,nx);
 n=n+1;
end
fld1=fld1/n;
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx)-fld1;
 clf
 quikplot_llc(fld/9.81)
 caxis([-2  2])
 axis([0  8641 800 7561])
 title('llc2160, bottom pressure (m)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17))
 eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
% Eta perturbation
nm='Eta';
fld1=0;
fld2=0;
n=1;
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx);
 fld1=fld1+fld;
 fld2=fld2+fld.^2;
 n=n+1;
end
fld1=fld1/n;
fld2=fld2/n;
writebin([pn 'EtaMean.data'],fld1);
writebin([pn 'EtaMeanSquare.data'],fld2);
clf reset
colormap(cmap)
quikplot_llc(sqrt(fld2-fld1.^2)*2*sqrt(2))
caxis([0 3])
thincolorbar
axis([0  8641 800 7561])
title('Global Eta range (m): 2*sqrt(2)*std(Eta)')
eval(['print -dtiff -r135 ' pn 'figs/' nm 'Range']);
n=1;
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx)-fld1;
 clf
 quikplot_llc(fld)
 caxis([-1  1]*2)
 axis([0  8641 800 7561])
 title('llc2160, Eta perturbation (m)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17))
 eval(['print -dtiff -r135 ' pn 'figs/' nm 'Pert' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
% Theta perturbation
nm='Theta';
fld1=0;
n=1;
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld1=fld1+quikread_llc(fn,nx);
 n=n+1;
end
fld1=fld1/n;
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx)-fld1;
 clf
 quikplot_llc(fld)
 caxis([-1  1]*1.5)
 axis([0  8641 800 7561])
 title('llc2160, Theta perturbation (deg C)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17))
 eval(['print -dtiff -r135 ' pn 'figs/' nm 'Pert' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
% Theta 12-hour difference
nm='Theta';
n=1;
clf reset
colormap(cmap)
for ts=93200:80:140720;
 mydisp(ts)
 fn1=[pn nm '.' myint2str(ts-960,10) '.data'];
 fn2=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn2,nx)-quikread_llc(fn1,nx);
 clf
 quikplot_llc(fld)
 caxis([-1 1])
 axis([0  8641 800 7561])
 title('llc2160, Theta 12-hour difference (deg C)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17))
 eval(['print -dtiff -r135 ' pn 'figs/' nm 'Diff' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm1='U'; nm2='V';
clf reset
colormap(cmap)
ts=140720;
fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
fl1=quikread_llc(fn1,nx);
fl2=quikread_llc(fn2,nx);
fld=sqrt(fl1.^2+fl2.^2);
clf
quikplot_llc(fld)
caxis([0 1])
axis([0  8641 800 7561])
title('llc2160, ocean surface speed (m/s)')
thincolorbar
text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
eval(['print -dpsc ' pn 'figs/HiResSpeed']);

%%%%%%%%%%%%
nm1='U'; nm2='V';
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
 fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
 fl1=quikread_llc(fn1,nx);
 fl2=quikread_llc(fn2,nx);
 fld=sqrt(fl1.^2+fl2.^2);
 clf
 quikplot_llc(fld)
 caxis([0 1])
 axis([0  8641 800 7561])
 title('llc2160, ocean surface speed (m/s)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/Speed' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
% circum-Greenland speed
nm1='U'; nm2='V';
n=1;
clf reset
orient landscape
wysiwyg
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
 fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
 fl1=sqrt(quikread_llc(fn1,nx,1,'real*4',7).^2+quikread_llc(fn2,nx,1,'real*4',7).^2);
 fl2=sqrt(quikread_llc(fn1,nx,1,'real*4',11).^2+quikread_llc(fn2,nx,1,'real*4',11).^2);
 fl3=sqrt(quikread_llc(fn1,nx,1,'real*4',3).^2+quikread_llc(fn2,nx,1,'real*4',3).^2);
 fld=zeros(nx*2,'single');
 fld(1:nx,(nx+1):end)=rot90(fl1,2);
 fld(1:nx,1:nx)=rot90(fl2,2);
 fld((nx+1):end,(nx+1):end)=rot90(fl1,1);
 fld((nx+1):end,1:nx)=fl3;
 clf
 quikpcolor(fld')
 caxis([0 1]*.8)
 axis([940  3080 1490 2620])
 title('llc2160, ocean surface speed (m/s)')
 thincolorbar
 text(1900,2200,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/GreenSpeed' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
% circum-Greenland speed, 15-m
nm1='U'; nm2='V';
k=9; % 14.68 m depth
n=1;
clf reset
orient landscape
wysiwyg
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
 fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
 fl1=sqrt(quikread_llc(fn1,nx,k,'real*4',7).^2+quikread_llc(fn2,nx,k,'real*4',7).^2);
 fl2=sqrt(quikread_llc(fn1,nx,k,'real*4',11).^2+quikread_llc(fn2,nx,k,'real*4',11).^2);
 fl3=sqrt(quikread_llc(fn1,nx,k,'real*4',3).^2+quikread_llc(fn2,nx,k,'real*4',3).^2);
 fld=zeros(nx*2,'single');
 fld(1:nx,(nx+1):end)=rot90(fl1,2);
 fld(1:nx,1:nx)=rot90(fl2,2);
 fld((nx+1):end,(nx+1):end)=rot90(fl1,1);
 fld((nx+1):end,1:nx)=fl3;
 clf
 quikpcolor(fld')
 caxis([0 1]*.8)
 axis([940  3080 1490 2620])
 title('llc2160, current speed at 15 m depth (m/s)')
 thincolorbar
 text(1900,2200,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/GreenSpeed15m' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm1='oceTAUX'; nm2='oceTAUY';
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
 fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
 fl1=quikread_llc(fn1,nx);
 fl2=quikread_llc(fn2,nx);
 fld=sqrt(fl1.^2+fl2.^2);
 clf
 quikplot_llc(fld)
 caxis([0 1]/2)
 axis([0  8641 800 7561])
 title('llc2160, ocean surface stress (Pa)')
 thincolorbar
 text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/Stress' myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
nm='SIheff';
n=1;
clf reset
colormap(cmap)
for ts=92240:80:140720;
 mydisp(ts)
 fn=[pn nm '.' myint2str(ts,10) '.data'];
 fld=quikread_llc(fn,nx,1,'real*4',7);
 clf
 quikpcolor(rot90(fld,2)')
 caxis([0 10])
 title('llc2160, effective sea ice thickness (m)')
 thincolorbar
 text(1500,400,ts2dte(ts,45,2011,1,17),'color','w')
 eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
 n=n+1;
end

%%%%%%%%%%%%
ts=140704;
pn='/nobackupp5/dmenemen/llc_2160/MITgcm/run_crash/';
fn=[pn 'Theta.' myint2str(ts,10) '.data'];
for k=1:90
    fld=quikread_llc(fn,nx);
    disp([k minmax(fld)])
end
1	dimitri	1.1	nx=4320;
2			pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
3
4	dimitri	1.2	%%%%%%%%%%%%%%
5			% SST of San Pedro basin
6			ts=279360;
7			fn=[pn 'Theta.' myint2str(ts,10) '.data'];
8			f=11;
9			ix=3800:4100;
10			iy=3100:3300;
11			T=quikread_llc(fn,nx,1,'real*4',f);
12			clf reset
13			mypcolor(rot90(T(ix,iy),2)')
14			colormap(cmap)
15			caxis([13.7 16.8])
16			thincolorbar
17			set(gca,'xtick',[],'ytick',[])
18			print -dpsc LA
19
20	dimitri	1.1	%%%%%%%%%%%%
21			% compare SST off Peru on November 1, 2011
22			cx=[15 20];
23			n1=1080;
24			n2=2160;
25			n3=4320;
26			ix1=380:590;
27			iy1=300:450;
28			ix2=760:1180;
29			iy2=600:900;
30			ix3=1520:2360;
31			iy3=1200:1800;
32			dte='1-Nov-2011';
33			ts1=dte2ts(dte,90,2010,1,1);
34			ts2=dte2ts(dte,45,2011,1,17);
35			ts3=dte2ts(dte,25,2011,9,10);
36			p1='/nobackupp8/dmenemen/llc/llc_1080/MITgcm/run_2011/';
37			p2='/nobackupp5/dmenemen/llc_2160/MITgcm/run_day49_on/';
38			p3='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
39			f1=[p1 'T.' myint2str(ts1,10) '.data'];
40			f2=[p2 'Theta.' myint2str(ts2,10) '.data'];
41			f3=[p3 'Theta.' myint2str(ts3,10) '.data'];
42			f=12;
43			T1=quikread_llc(f1,n1,1,'real*4',f);
44			T2=quikread_llc(f2,n2,1,'real*4',f);
45			T3=quikread_llc(f3,n3,1,'real*4',f);
46			clf reset
47			subplot(131)
48			mypcolor(rot90(T1(ix1,iy1),2)');
49			caxis(cx)
50			thincolorbar('horiz')
51			title('1/12 deg')
52			subplot(132)
53			mypcolor(rot90(T2(ix2,iy2),2)');
54			caxis(cx)
55			thincolorbar('horiz')
56			title('1/24 deg')
57			subplot(133)
58			mypcolor(rot90(T3(ix3,iy3),2)');
59			caxis(cx)
60			thincolorbar('horiz')
61			title('1/48 deg')
62
63			print -dpsc -r600 SST_Peru
64
65			%%%%%%%%%%%%
66			nm='SIarea';
67			n=1;
68			clf reset
69			colormap(cmap)
70			for ts=10368:144:138384;
71			mydisp(ts)
72			fn=[pn nm '.' myint2str(ts,10) '.data'];
73			if exist(fn)
74			fld=[rot90(quikread_llc(fn,nx,1,'real4',7),1) quikread_llc(fn,nx,1,'real4',8)];
75			clf
76			quikpcolor(rot90(fld(:,1:5000),1)');
77			caxis([0.9 1])
78			title('llc4320 fractional sea ice concentration')
79			thincolorbar
80			text(3400,760,ts2dte(ts,25,2011,9,10),'color','w')
81			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
82			n=n+1;
83			end
84			end
85
86			%%%%%%%%%%%%
87			nm='SIarea';
88			n=1;
89			clf reset
90			colormap(cmap)
91			ts=3600;
92			fn=[pn nm '.' myint2str(ts,10) '.data'];
93			fld=[rot90(quikread_llc(fn,nx,1,'real4',7),1) quikread_llc(fn,nx,1,'real4',8)];
94			clf
95			quikpcolor(rot90(fld(:,1:5000),1)')
96			caxis([0.9 1])
97			title('llc4320, sea ice concentration (m)')
98			thincolorbar
99
100			%%%%%%%%%%%%
101			p1='/nobackupp8/dmenemen/llc/llc_1080/MITgcm/run_2011/';
102			n1=1080;
103			t1=599040;
104			f1=[p1 'T.' myint2str(t1,10) '.data'];
105			fld1=zeros(n1*4,n1);
106			fld1(1:n1,:)=quikread_llc(f1,n1,1,'real*4',2);
107			fld1((n1+1):(2n1),:)=quikread_llc(f1,n1,1,'real4',5);
108			fld1((2n1+1):(3n1),:)=rot90(quikread_llc(f1,n1,1,'real*4',9),2);
109			fld1((3n1+1):(4n1),:)=rot90(quikread_llc(f1,n1,1,'real*4',12),2);
110
111			p2='/nobackupp5/dmenemen/llc_2160/MITgcm/run_day49_73/';
112			n2=2160;
113			t2=466080;
114			f2=[p2 'Theta.' myint2str(t2,10) '.data'];
115			fld2=zeros(n2*4,n2);
116			fld2(1:n2,:)=quikread_llc(f2,n2,1,'real*4',2);
117			fld2((n2+1):(2n2),:)=quikread_llc(f2,n2,1,'real4',5);
118			fld2((2n2+1):(3n2),:)=rot90(quikread_llc(f2,n2,1,'real*4',9),2);
119			fld2((3n2+1):(4n2),:)=rot90(quikread_llc(f2,n2,1,'real*4',12),2);
120
121			p3='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
122			n3=4320;
123			t3=26928;
124			f3=[p3 'Theta.' myint2str(t3,10) '.data'];
125			fld3=zeros(n3*4,n3);
126			fld3(1:n3,:)=quikread_llc(f3,n3,1,'real*4',2);
127			fld3((n3+1):(2n3),:)=quikread_llc(f3,n3,1,'real4',5);
128			fld3((2n3+1):(3n3),:)=rot90(quikread_llc(f3,n3,1,'real*4',9),2);
129			fld3((3n3+1):(4n3),:)=rot90(quikread_llc(f3,n3,1,'real*4',12),2);
130
131			cx=[0 30];
132			clf reset
133			colormap(cmap)
134			subplot(311)
135			mypcolor(fld1');
136			caxis(cx)
137			thincolorbar
138			title('llc_1080 SST, 17 September 2011')
139			subplot(312)
140			mypcolor(fld2');
141			caxis(cx)
142			thincolorbar
143			title('llc_2160 SST, 16 September 2011')
144			subplot(313)
145			mypcolor(fld3');
146			caxis(cx)
147			thincolorbar
148			title('llc_4320 SST, 17 September 2011')
149
150			print -dpsc -r600 Theta_17sep2011
151
152			%%%%%%%%%%%%
153			nx=4320;
154			p1='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run_day1/';
155			pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
156			nm='Theta';
157			f=2; iy=1300:1900; ix=2600:3400;
158			clf reset
159			colormap(cmap)
160			ts=180;
161			fn=[p1 nm '.' myint2str(ts,10) '.data'];
162			fld=quikread_llc(fn,nx,1,'real*4',f);
163			subplot(211)
164			mypcolor(fld(ix,iy)');
165			caxis([10 20])
166			thincolorbar
167			ts=14976;
168			fn=[pn nm '.' myint2str(ts,10) '.data'];
169			fld=quikread_llc(fn,nx,1,'real*4',f);
170			subplot(212)
171			mypcolor(fld(ix,iy)');
172			caxis([10 20])
173			thincolorbar
174
175			print -dpsc -r600 Theta
176
177			%%%%%%%%%%%%
178			pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
179			nm='Theta';
180			nx=4320;
181			clf reset
182			colormap(cmap)
183			ts=136368;
184			fn=[pn nm '.' myint2str(ts,10) '.data'];
185			fld=quikread_llc(fn,nx);
186			fld(find(~fld))=-3;
187			quikplot_llc(fld)
188			caxis([-3 31])
189			axis([0 17281 1600 15121])
190			title(['llc4320 ' ts2dte(ts,45,2011,1,17) ', Sea Surface Temperature (deg C)'])
191			thincolorbar
192			eval(['print -dpsc -r600 Theta4320_' int2str(ts)])
193
194			%%%%%%%%%%%%
195			nm='KPPhbl';
196			n=1;
197			clf reset
198			colormap(cmap)
199			for ts=92240:80:140720;
200			mydisp(ts)
201			fn=[pn nm '.' myint2str(ts,10) '.data'];
202			fld=quikread_llc(fn,nx);
203			clf
204			quikplot_llc(log10(fld))
205			caxis([0 3])
206			axis([0 8641 800 7561])
207			title('llc2160, log10(PBL)')
208			thincolorbar
209			text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
210			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
211			n=n+1;
212			end
213
214			%%%%%%%%%%%%
215			nm='Eta';
216			n=1;
217			clf reset
218			for ts=92240:80:140720;
219			mydisp(ts)
220			fn=[pn nm '.' myint2str(ts,10) '.data'];
221			fld=quikread_llc(fn,nx);
222			clf
223			quikplot_llc(fld)
224			caxis([-1 1]*3)
225			axis([0 8641 800 7561])
226			title('llc2160, sea surface height (m)')
227			thincolorbar
228			text(1000,1000,ts2dte(ts,45,2011,1,17))
229			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
230			n=n+1;
231			end
232
233			%%%%%%%%%%%%
234			nm='Theta';
235			n=1;
236			clf reset
237			colormap(cmap)
238			ts=4464;
239			fn=[pn nm '.' myint2str(ts,10) '.data'];
240			fld=quikread_llc(fn,nx);
241			clf
242			quikplot_llc(fld)
243			caxis([-2.5 30.5])
244			axis([0 17281 1600 15121])
245			title('llc4320, sea surface temperature (deg C)')
246			thincolorbar
247			print -dpsc -r600 Theta4320_4464
248
249			%%%%%%%%%%%%
250			nm='W';
251			kx=68;
252			n=1;
253			clf reset
254			colormap(cmap)
255			for ts=92240:80:140720;
256			mydisp(ts)
257			fn=[pn nm '.' myint2str(ts,10) '.data'];
258			fld=quikread_llc(fn,nx,kx);
259			clf
260			quikplot_llc(fld*1000)
261			caxis([-1 1]*8)
262			axis([0 8641 800 7561])
263			title('llc2160, Wvel at 2 km depth (mm/s)')
264			thincolorbar
265			text(1000,1000,ts2dte(ts,45,2011,1,17),'color','k')
266			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
267			n=n+1;
268			end
269
270			%%%%%%%%%%%%
271			% W2000 in EqWPac
272			nm='W';
273			kx=68;
274			n=1;
275			clf reset
276			colormap(cmap)
277			for ts=92240:80:140720;
278			mydisp(ts)
279			fn=[pn nm '.' myint2str(ts,10) '.data'];
280			fld=quikread_llc(fn,nx,kx,'real*4',9);
281			clf
282			quikpcolor(1000*rot90(fld,2)')
283			caxis([-1 1]*5)
284			title('llc2160, Wvel at 2 km depth (mm/s)')
285			thincolorbar
286			text(620,540,ts2dte(ts,45,2011,1,17),'color','k')
287			eval(['print -dtiff -r135 ' pn 'figs/' nm 'WPac' myint2str(n,4)]);
288			n=n+1;
289			end
290
291			%%%%%%%%%%%%
292			nm='Salt';
293			n=1;
294			clf reset
295			colormap(cmap)
296			for ts=92240:80:140720;
297			mydisp(ts)
298			fn=[pn nm '.' myint2str(ts,10) '.data'];
299			fld=quikread_llc(fn,nx);
300			clf
301			quikplot_llc(fld)
302			caxis([28 38])
303			axis([0 8641 800 7561])
304			title('llc2160, sea surface salinity (g/kg)')
305			thincolorbar
306			text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
307			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
308			n=n+1;
309			end
310
311			%%%%%%%%%%%%
312			nm='PhiBot';
313			fld1=0;
314			n=1;
315			for ts=92240:80:140720;
316			mydisp(ts)
317			fn=[pn nm '.' myint2str(ts,10) '.data'];
318			fld1=fld1+quikread_llc(fn,nx);
319			n=n+1;
320			end
321			fld1=fld1/n;
322			n=1;
323			clf reset
324			colormap(cmap)
325			for ts=92240:80:140720;
326			mydisp(ts)
327			fn=[pn nm '.' myint2str(ts,10) '.data'];
328			fld=quikread_llc(fn,nx)-fld1;
329			clf
330			quikplot_llc(fld/9.81)
331			caxis([-2 2])
332			axis([0 8641 800 7561])
333			title('llc2160, bottom pressure (m)')
334			thincolorbar
335			text(1000,1000,ts2dte(ts,45,2011,1,17))
336			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
337			n=n+1;
338			end
339
340			%%%%%%%%%%%%
341			% Eta perturbation
342			nm='Eta';
343			fld1=0;
344			fld2=0;
345			n=1;
346			for ts=92240:80:140720;
347			mydisp(ts)
348			fn=[pn nm '.' myint2str(ts,10) '.data'];
349			fld=quikread_llc(fn,nx);
350			fld1=fld1+fld;
351			fld2=fld2+fld.^2;
352			n=n+1;
353			end
354			fld1=fld1/n;
355			fld2=fld2/n;
356			writebin([pn 'EtaMean.data'],fld1);
357			writebin([pn 'EtaMeanSquare.data'],fld2);
358			clf reset
359			colormap(cmap)
360			quikplot_llc(sqrt(fld2-fld1.^2)2sqrt(2))
361			caxis([0 3])
362			thincolorbar
363			axis([0 8641 800 7561])
364			title('Global Eta range (m): 2sqrt(2)std(Eta)')
365			eval(['print -dtiff -r135 ' pn 'figs/' nm 'Range']);
366			n=1;
367			for ts=92240:80:140720;
368			mydisp(ts)
369			fn=[pn nm '.' myint2str(ts,10) '.data'];
370			fld=quikread_llc(fn,nx)-fld1;
371			clf
372			quikplot_llc(fld)
373			caxis([-1 1]*2)
374			axis([0 8641 800 7561])
375			title('llc2160, Eta perturbation (m)')
376			thincolorbar
377			text(1000,1000,ts2dte(ts,45,2011,1,17))
378			eval(['print -dtiff -r135 ' pn 'figs/' nm 'Pert' myint2str(n,4)]);
379			n=n+1;
380			end
381
382			%%%%%%%%%%%%
383			% Theta perturbation
384			nm='Theta';
385			fld1=0;
386			n=1;
387			for ts=92240:80:140720;
388			mydisp(ts)
389			fn=[pn nm '.' myint2str(ts,10) '.data'];
390			fld1=fld1+quikread_llc(fn,nx);
391			n=n+1;
392			end
393			fld1=fld1/n;
394			n=1;
395			clf reset
396			colormap(cmap)
397			for ts=92240:80:140720;
398			mydisp(ts)
399			fn=[pn nm '.' myint2str(ts,10) '.data'];
400			fld=quikread_llc(fn,nx)-fld1;
401			clf
402			quikplot_llc(fld)
403			caxis([-1 1]*1.5)
404			axis([0 8641 800 7561])
405			title('llc2160, Theta perturbation (deg C)')
406			thincolorbar
407			text(1000,1000,ts2dte(ts,45,2011,1,17))
408			eval(['print -dtiff -r135 ' pn 'figs/' nm 'Pert' myint2str(n,4)]);
409			n=n+1;
410			end
411
412			%%%%%%%%%%%%
413			% Theta 12-hour difference
414			nm='Theta';
415			n=1;
416			clf reset
417			colormap(cmap)
418			for ts=93200:80:140720;
419			mydisp(ts)
420			fn1=[pn nm '.' myint2str(ts-960,10) '.data'];
421			fn2=[pn nm '.' myint2str(ts,10) '.data'];
422			fld=quikread_llc(fn2,nx)-quikread_llc(fn1,nx);
423			clf
424			quikplot_llc(fld)
425			caxis([-1 1])
426			axis([0 8641 800 7561])
427			title('llc2160, Theta 12-hour difference (deg C)')
428			thincolorbar
429			text(1000,1000,ts2dte(ts,45,2011,1,17))
430			eval(['print -dtiff -r135 ' pn 'figs/' nm 'Diff' myint2str(n,4)]);
431			n=n+1;
432			end
433
434			%%%%%%%%%%%%
435			nm1='U'; nm2='V';
436			clf reset
437			colormap(cmap)
438			ts=140720;
439			fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
440			fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
441			fl1=quikread_llc(fn1,nx);
442			fl2=quikread_llc(fn2,nx);
443			fld=sqrt(fl1.^2+fl2.^2);
444			clf
445			quikplot_llc(fld)
446			caxis([0 1])
447			axis([0 8641 800 7561])
448			title('llc2160, ocean surface speed (m/s)')
449			thincolorbar
450			text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
451			eval(['print -dpsc ' pn 'figs/HiResSpeed']);
452
453			%%%%%%%%%%%%
454			nm1='U'; nm2='V';
455			n=1;
456			clf reset
457			colormap(cmap)
458			for ts=92240:80:140720;
459			mydisp(ts)
460			fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
461			fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
462			fl1=quikread_llc(fn1,nx);
463			fl2=quikread_llc(fn2,nx);
464			fld=sqrt(fl1.^2+fl2.^2);
465			clf
466			quikplot_llc(fld)
467			caxis([0 1])
468			axis([0 8641 800 7561])
469			title('llc2160, ocean surface speed (m/s)')
470			thincolorbar
471			text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
472			eval(['print -dtiff -r135 ' pn 'figs/Speed' myint2str(n,4)]);
473			n=n+1;
474			end
475
476			%%%%%%%%%%%%
477			% circum-Greenland speed
478			nm1='U'; nm2='V';
479			n=1;
480			clf reset
481			orient landscape
482			wysiwyg
483			colormap(cmap)
484			for ts=92240:80:140720;
485			mydisp(ts)
486			fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
487			fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
488			fl1=sqrt(quikread_llc(fn1,nx,1,'real4',7).^2+quikread_llc(fn2,nx,1,'real4',7).^2);
489			fl2=sqrt(quikread_llc(fn1,nx,1,'real4',11).^2+quikread_llc(fn2,nx,1,'real4',11).^2);
490			fl3=sqrt(quikread_llc(fn1,nx,1,'real4',3).^2+quikread_llc(fn2,nx,1,'real4',3).^2);
491			fld=zeros(nx*2,'single');
492			fld(1:nx,(nx+1):end)=rot90(fl1,2);
493			fld(1:nx,1:nx)=rot90(fl2,2);
494			fld((nx+1):end,(nx+1):end)=rot90(fl1,1);
495			fld((nx+1):end,1:nx)=fl3;
496			clf
497			quikpcolor(fld')
498			caxis([0 1]*.8)
499			axis([940 3080 1490 2620])
500			title('llc2160, ocean surface speed (m/s)')
501			thincolorbar
502			text(1900,2200,ts2dte(ts,45,2011,1,17),'color','w')
503			eval(['print -dtiff -r135 ' pn 'figs/GreenSpeed' myint2str(n,4)]);
504			n=n+1;
505			end
506
507			%%%%%%%%%%%%
508			% circum-Greenland speed, 15-m
509			nm1='U'; nm2='V';
510			k=9; % 14.68 m depth
511			n=1;
512			clf reset
513			orient landscape
514			wysiwyg
515			colormap(cmap)
516			for ts=92240:80:140720;
517			mydisp(ts)
518			fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
519			fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
520			fl1=sqrt(quikread_llc(fn1,nx,k,'real4',7).^2+quikread_llc(fn2,nx,k,'real4',7).^2);
521			fl2=sqrt(quikread_llc(fn1,nx,k,'real4',11).^2+quikread_llc(fn2,nx,k,'real4',11).^2);
522			fl3=sqrt(quikread_llc(fn1,nx,k,'real4',3).^2+quikread_llc(fn2,nx,k,'real4',3).^2);
523			fld=zeros(nx*2,'single');
524			fld(1:nx,(nx+1):end)=rot90(fl1,2);
525			fld(1:nx,1:nx)=rot90(fl2,2);
526			fld((nx+1):end,(nx+1):end)=rot90(fl1,1);
527			fld((nx+1):end,1:nx)=fl3;
528			clf
529			quikpcolor(fld')
530			caxis([0 1]*.8)
531			axis([940 3080 1490 2620])
532			title('llc2160, current speed at 15 m depth (m/s)')
533			thincolorbar
534			text(1900,2200,ts2dte(ts,45,2011,1,17),'color','w')
535			eval(['print -dtiff -r135 ' pn 'figs/GreenSpeed15m' myint2str(n,4)]);
536			n=n+1;
537			end
538
539			%%%%%%%%%%%%
540			nm1='oceTAUX'; nm2='oceTAUY';
541			n=1;
542			clf reset
543			colormap(cmap)
544			for ts=92240:80:140720;
545			mydisp(ts)
546			fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
547			fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
548			fl1=quikread_llc(fn1,nx);
549			fl2=quikread_llc(fn2,nx);
550			fld=sqrt(fl1.^2+fl2.^2);
551			clf
552			quikplot_llc(fld)
553			caxis([0 1]/2)
554			axis([0 8641 800 7561])
555			title('llc2160, ocean surface stress (Pa)')
556			thincolorbar
557			text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
558			eval(['print -dtiff -r135 ' pn 'figs/Stress' myint2str(n,4)]);
559			n=n+1;
560			end
561
562			%%%%%%%%%%%%
563			nm='SIheff';
564			n=1;
565			clf reset
566			colormap(cmap)
567			for ts=92240:80:140720;
568			mydisp(ts)
569			fn=[pn nm '.' myint2str(ts,10) '.data'];
570			fld=quikread_llc(fn,nx,1,'real*4',7);
571			clf
572			quikpcolor(rot90(fld,2)')
573			caxis([0 10])
574			title('llc2160, effective sea ice thickness (m)')
575			thincolorbar
576			text(1500,400,ts2dte(ts,45,2011,1,17),'color','w')
577			eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
578			n=n+1;
579			end
580
581			%%%%%%%%%%%%
582			ts=140704;
583			pn='/nobackupp5/dmenemen/llc_2160/MITgcm/run_crash/';
584			fn=[pn 'Theta.' myint2str(ts,10) '.data'];
585			for k=1:90
586			fld=quikread_llc(fn,nx);
587			disp([k minmax(fld)])
588			end